Atnaujinkite slapukų nuostatas

El. knyga: Handbook of Brain Microcircuits

5.00/5 (2 ratings by Goodreads)
Edited by (MD, DPhil, Yale University School of Medicine), Edited by (MD, Karolinska Institutet)
  • Formatas: 576 pages
  • Išleidimo metai: 12-Dec-2017
  • Leidėjas: Oxford University Press Inc
  • Kalba: eng
  • ISBN-13: 9780190636135
Kitos knygos pagal šią temą:
Handbook of Brain MicrocircuitsDidesnis paveikslėlis
  • Formatas: 576 pages
  • Išleidimo metai: 12-Dec-2017
  • Leidėjas: Oxford University Press Inc
  • Kalba: eng
  • ISBN-13: 9780190636135
Kitos knygos pagal šią temą:

DRM apribojimai

  • Kopijuoti:

    neleidžiama

  • Spausdinti:

    neleidžiama

  • El. knygos naudojimas:

    Skaitmeninių teisių valdymas (DRM)
    Leidykla pateikė šią knygą šifruota forma, o tai reiškia, kad norint ją atrakinti ir perskaityti reikia įdiegti nemokamą programinę įrangą. Norint skaityti šią el. knygą, turite susikurti Adobe ID . Daugiau informacijos  čia. El. knygą galima atsisiųsti į 6 įrenginius (vienas vartotojas su tuo pačiu Adobe ID).

    Reikalinga programinė įranga
    Norint skaityti šią el. knygą mobiliajame įrenginyje (telefone ar planšetiniame kompiuteryje), turite įdiegti šią nemokamą programėlę: PocketBook Reader (iOS / Android)

    Norint skaityti šią el. knygą asmeniniame arba „Mac“ kompiuteryje, Jums reikalinga  Adobe Digital Editions “ (tai nemokama programa, specialiai sukurta el. knygoms. Tai nėra tas pats, kas „Adobe Reader“, kurią tikriausiai jau turite savo kompiuteryje.)

    Negalite skaityti šios el. knygos naudodami „Amazon Kindle“.

Updated and revised, the second edition of Handbook of Brain Microcircuits covers the functional organization of 50 brain regions. This now-classic text uses an interdisciplinary approach to examine the integration of structure, function, electrophysiology, pharmacology, brain imaging, and behavior. Through uniquely concise and authoritative chapters by leaders in their fields, the Handbook of Brain Microcircuits synthesizes many of the new principles of microcircuit organization that are defining a new era in understanding the brain connectome, integrating the major neuronal pathways and essential microcircuits with brain function.

New to the Second Edition:
· Insights into new regions of the brain through canonical microcircuit diagrams for each region
· Latest methodology in optogenetics, neurotransmitter uncaging, computational models of neurons and microcircuits, serial ultrastructure reconstructions, cellular and regional imaging
· Extrapolated data from new genetic tools and understandings applied to microcircuits in the mouse and Drosophila
· Common principles across vertebrate and invertebrate microcircuit systems, one of the key goals of modern neuroscience

Recenzijos

Provides excellent reference for those seeking to further their understanding of the principles underlying neural function, as well as an effective summary for those seeking to investigate particular neural networks... This is an excellent resource that I expect I will continue to reference throughout my career. * Neurosurgery *

Contributors List xi
Introduction: Principles of Microcircuit Organization and Function xix
Gordon M. Shepherd
Sten Grillner
SECTION 1 NEOCORTEX
1 Neocortical Microcircuits
3(20)
Javier DeFelipe
Bernardo Rudy
2 Canonical Cortical Circuits
23(12)
Rodney J. Douglas
Kevan A. C. Martin
3 Microcircuitry of the Neocortex
35(12)
Srikanth Ramaswamy
Eilif B. Muller
Michael Reimann
Henry Markram
4 The Cortical Microcircuit as a Recurrent Neural Network
47(12)
Rafael Yuste
5 Barrel Cortex
59(8)
Karel Svoboda
Jianing Yu
6 Inhibitory Mechanisms in the Motor Cortical Circuit
67(8)
Hugo Merchant
Apostolos P. Georgopoulos
7 Prefrontal Cortex
75(12)
Xiao-Jing Wang
SECTION 2 THALAMUS
8 Circuitry of the Lateral Geniculate Nucleus
87(12)
S. Murray Sherman
9 Thalamocortical Networks
99(12)
David A. McCormick
SECTION 3 CIRCADIAN SYSTEM
10 The Suprachiasmatic Nucleus
111(10)
Gabriella Lundkvist
Gene D. Block
SECTION 4 BASAL GANGLIA
11 Microcircuits of the Striatum
121(12)
Natalie M. Doig
J. Paul Bolam
12 Templates for Neural Dynamics in the Striatum: Striosomes and Matrisomes
133(10)
Ann M. Graybiel
13 Subthalamo-Pallidal Circuit
143(10)
Charles J. Wilson
SECTION 5 LIMBIC SYSTEM AND MEMORY
14 Mesolimbic Dopamine and the Circuitry of Reward
153(10)
A. J. Robison
Eric J. Nestler
15 The Cholinergic Multicompartmental Basal Forebrain Microcircuit
163(22)
Laszlo Zaborszky
Peter Gombkoto
16 Amygdala Microcircuits
185(14)
Luke R. Johnson
Joseph E. LeDoux
17 Hippocampus: Intrinsic Organization
199(18)
Peter Somogyi
Thomas Klausberger
18 Hippocampus: Network Physiology
217(10)
Gyorgy Buzsaki
Antonio Fernandez-Ruiz
19 Entorhinal Cortex
227(18)
Edvard I. Moser
Menno P. Witter
May-Britt Moser
20 The Neuronal Circuit for Simple Forms of Learning in Aplysia
245(20)
Robert D. Hawkins
Craig H. Bailey
Eric R. Kandel
SECTION 6 VISUAL SYSTEM
21 Retina: Microcircuits for Daylight, Twilight, and Starlight Vision
265(8)
Jonathan B. Demb
Joshua H. Singer
22 Understanding Retinal Microcircuitry: Then to Now
273(12)
Frank S. Werblin
John E. Dowling
23 Fly Optic Lamina as a Guide to Neural Circuit Design
285(8)
Simon B. Laughlin
24 The Insect Visual System: Correspondence with Vertebrates and with Olfactory Processing
293(16)
Nicholas J. Strausfeld
SECTION 7 OLFACTORY SYSTEM
25 Olfactory Bulb
309(14)
Gordon M. Shepherd
Michele Migliore
Francesco Cavarretta
26 Olfactory Cortex
323(10)
Donald A. Wilson
Edi Barkai
27 Implications from Microcircuits of a Moth's Antennal Lobe for Olfactory Information Processing
333(12)
Hong Lei
Lynne A. Oland
Jeffery A. Riffell
Aaron Beyerlein
John G. Hildebrand
28 Antennal Lobe of the Honeybee
345(8)
Jurgen Rybak
Randolf Menzel
29 Mushroom Body of the Honeybee
353(8)
Jurgen Rybak
Randolf Menzel
30 Olfactory Microcircuits in Drosophila Melanogaster
361(8)
Jurgen Rybak
Bill S. Hansson
31 The Circuit for Chemotaxis and Exploratory Behavior in Caenorhabditis Elegans
369(10)
Cornelia I. Bargmann
SECTION 8 TASTE SYSTEM
32 Taste Coding and Feedforward/Feedback Signaling in Taste Buds
379(10)
Stephen D. Roper
Nirupa Chaudhari
33 Microcircuitry of the Rostral Nucleus of the Solitary Tract
389(14)
Joseph B. Travers
Susan P. Travers
SECTION 9 AUDITORY SYSTEM
34 Cochlear Microcircuits
403(12)
Paul Albert Fuchs
Jing-jing Sherry Wu
Pankhuri Vyas
Stephen Paul Zachary
35 Cochlear Nucleus
415(10)
Eric D. Young
Donata Oertel
36 Nucleus Laminaris
425(14)
Jason Tait Sanchez
Yuan Wang
Yong Lu
R. Michael Burger
Armin H. Seidl
Edwin W. Rubel
SECTION 10 CEREBELLUM
37 Cerebellar Cortex
439(8)
Masao Ito
38 Olivocerebellar System
447(10)
Rodolfo R. Llinds
SECTION 11 MOTOR SYSTEMS
39 The Superior Colliculus
457(10)
Tadashi Isa
Masatoshi Kasai
Richard Veale
40 Networks in the Lamprey Optic Tectum
467(8)
Andreas A. Kardamakis
Juan Perez-Fernandez
Sten Grillner
41 Respiratory Central Pattern Generator: Microcircuit Generation of the Rhythms and Patterns of Breathing
475(14)
Kaiwen Kam
Jack L. Feldman
42 The Mammalian Brainstem Chewing Circuitry
489(10)
Arlette Kolta
James P. Lund
43 The Crustacean Stomatogastric Nervous System
499(6)
Eve Marder
44 The Mauthner Cell Microcircuits: Sensory Integration, Decision-Making, and Motor Functions
505(12)
Donald S. Faber
Henri Korn
45 Spinal Circuit for Escape in Goldfish and Zebrafish
517(4)
Joseph R. Fetcho
46 The Lamprey Postural Circuit
521(6)
Tatiana G. Deliagina
Pavel V. Zelenin
Grigory N. Orlovsky
47 The Lamprey Locomotor Central Pattern Generator
527(8)
Sten Grillner
Elham Jalalvand
Peter Wallen
48 Modularity and Modulation of Locomotor Circuits in Adult Vertebrates
535(10)
Abdeljabbar El Manira
49 Tadpole Swimming Network
545(8)
Keith T. Sillar
Wen-Chang Li
50 Neuronal Circuits that Generate Swimming Movements in Leeches
553(8)
Wolfgang Otto Friesen
51 The Tritonia Swim Central Pattern Generator
561(8)
Paul S. Katz
52 The Swimming Circuit in the Pteropod Mollusk Clione limacina
569(6)
Yuri I. Arshavsky
Tatiana G. Deliagina
Grigory N. Orlovsky
53 The Heartbeat Neural Control System of the Leech
575(6)
Ronald L. Calabrese
Index 581
Gordon M. Shepherd received his BS at Iowa State College in 1955, MD at Harvard in 1959, and DPhil at Oxford in 1962. After postdoctoral training at NIH, MIT and the Karolinska Institute he joined the faculty at Yale Medical School, where he is Professor of Neuroscience.

Sten Grillner studied at the medical faculty in Gothenburg, Sweden, and received his MD, PhD in neurophysiology in 1969. He has been a Professor and Director of the Nobel Institute for Neurophysiology at the Karolinska Institute since 1987.
Daugiau apie elektronines knygas Daugiau apie elektronines knygas
Pastovi nuoroda: https://www.kriso.lt/db/97801906361356e.html
Raktažodžiai: